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W4200177620 abstract "Cellulolytic enzyme production in filamentous fungi requires a release from carbon catabolite repression (CCR). The protein CRE1/CreA (CRE = catabolite responsive element) is a key transcription factor (TF) that is involved in CCR and represses cellulolytic gene expression. CRE1/CreA represents the functional equivalent of Mig1p, an important Saccharomyces cerevisiae TF in CCR that exerts its repressive effect by recruiting a corepressor complex Tup1p-Cyc8p. Although it is known from S. cerevisiae that CRE1/CreA might repress gene expression via interacting with the corepressor complex Tup1-Cyc8, this mechanism is unconfirmed in other filamentous fungi, since the physical interaction has not yet been verified in these organisms. The precise mechanism on how CRE1/CreA achieves transcriptional repression after DNA binding remains unknown.The results from tandem affinity purification and bimolecular fluorescence complementation revealed a direct physical interaction between the TF CRE1/CreA and the complex Tup1-Cyc8 in the nucleus of cellulolytic fungus Trichoderma reesei and Penicillium oxalicum. Both fungi have the ability to secrete a complex arsenal of enzymes to synergistically degrade lignocellulosic materials. In P. oxalicum, the protein PoCyc8, a subunit of complex Tup1-Cyc8, interacts directly with TF PoCreA and histone H3 lysine 36 (H3K36) methyltransferase PoSet2 in the nucleus. The di-methylation level of H3K36 in the promoter of prominent cellulolytic genes (cellobiohydrolase-encoding gene Pocbh1/cel7A and endoglucanase-encoding gene Poegl1/cel7B) is positively correlated with the expression levels of TF PoCreA. Since the methylation of H3K36 was also demonstrated to be a repression marker of cellulolytic gene expression, it appears feasible that the cellulolytic genes are repressed via PoCreA-Tup1-Cyc8-Set2-mediated transcriptional repression.This study verifies the long-standing conjecture that the TF CRE1/CreA represses gene expression by interacting with the corepressor complex Tup1-Cyc8 in filamentous fungi. A reasonable explanation is proposed that PoCreA represses gene expression by recruiting complex PoTup1-Cyc8. Histone methyltransferase Set2, which methylates H3K36, is also involved in the regulatory network by interacting with PoCyc8. The findings contribute to the understanding of CCR mechanism in filamentous fungi and could aid in biotechnologically relevant enzyme production." @default.
W4200177620 created "2021-12-31" @default.
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W4200177620 date "2021-12-01" @default.
W4200177620 modified "2023-10-14" @default.
W4200177620 title "Carbon catabolite repression involves physical interaction of the transcription factor CRE1/CreA and the Tup1–Cyc8 complex in Penicillium oxalicum and Trichoderma reesei" @default.
W4200177620 cites W1465481699 @default.
W4200177620 cites W1965169361 @default.
W4200177620 cites W1965343063 @default.
W4200177620 cites W1981433254 @default.
W4200177620 cites W1981658133 @default.
W4200177620 cites W1987871581 @default.
W4200177620 cites W1999162249 @default.
W4200177620 cites W1999634015 @default.
W4200177620 cites W2004971539 @default.
W4200177620 cites W2010145498 @default.
W4200177620 cites W2014327091 @default.
W4200177620 cites W2024441330 @default.
W4200177620 cites W2024893196 @default.
W4200177620 cites W2027214537 @default.
W4200177620 cites W2029235165 @default.
W4200177620 cites W2044158637 @default.
W4200177620 cites W2044763773 @default.
W4200177620 cites W2047973275 @default.
W4200177620 cites W2054425494 @default.
W4200177620 cites W2059905335 @default.
W4200177620 cites W2063833575 @default.
W4200177620 cites W2064938664 @default.
W4200177620 cites W2068729249 @default.
W4200177620 cites W2071948461 @default.
W4200177620 cites W2084986069 @default.
W4200177620 cites W2091567823 @default.
W4200177620 cites W2095151352 @default.
W4200177620 cites W2099295645 @default.
W4200177620 cites W2101629470 @default.
W4200177620 cites W2106534934 @default.
W4200177620 cites W2108247790 @default.
W4200177620 cites W2117255121 @default.
W4200177620 cites W2125619694 @default.
W4200177620 cites W2129899427 @default.
W4200177620 cites W2130214645 @default.
W4200177620 cites W2130543190 @default.
W4200177620 cites W2133452708 @default.
W4200177620 cites W2136464092 @default.
W4200177620 cites W2142145570 @default.
W4200177620 cites W2146602307 @default.
W4200177620 cites W2147524392 @default.
W4200177620 cites W2148490163 @default.
W4200177620 cites W2149993601 @default.
W4200177620 cites W2150011038 @default.
W4200177620 cites W2163721363 @default.
W4200177620 cites W2165574256 @default.
W4200177620 cites W2167387687 @default.
W4200177620 cites W2170019188 @default.
W4200177620 cites W2177691638 @default.
W4200177620 cites W2508906503 @default.
W4200177620 cites W2529337845 @default.
W4200177620 cites W2558277170 @default.
W4200177620 cites W2559450437 @default.
W4200177620 cites W2612370343 @default.
W4200177620 cites W2615136515 @default.
W4200177620 cites W2615538334 @default.
W4200177620 cites W2779939194 @default.
W4200177620 cites W2804822363 @default.
W4200177620 cites W2877237732 @default.
W4200177620 cites W2969568555 @default.
W4200177620 cites W2969752285 @default.
W4200177620 cites W2984960670 @default.
W4200177620 cites W3011687921 @default.
W4200177620 cites W3013776155 @default.
W4200177620 cites W3045540370 @default.
W4200177620 cites W3069948018 @default.
W4200177620 cites W3112964718 @default.
W4200177620 cites W3117962027 @default.
W4200177620 cites W3120788849 @default.
W4200177620 cites W3123778796 @default.
W4200177620 cites W3129554712 @default.
W4200177620 doi "https://doi.org/10.1186/s13068-021-02092-9" @default.
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